Cosmic rays produce high velocity muons as they strike the upper atmosphere. Muons are a type of high-energy electron that would normally decay very quickly and not reach the ground in their half-life before decaying. But, the half-life of a muon increases dramatically when traveling near light speed. Such is the prediction of the Theory of Relativity, and an observed experimental fact. This experiment has in fact been used as one of the cornerstone proofs of Relativity.

The muon has a very small Kinetic Energy wavelength (i.e. de Broglie wavelength) because of its extremely high velocity. This small wavelength of course corresponds to the high amount of energy stored in the small volume. The kinetic energy field of the particle causes the positive and negative DPs in the local space to create a volume of densely/strongly ordered electrical and magnetic fields. This high kinetic energy field thus creates an effective “stiffening” of the DP Sea by the high polarization of the DPs. In other words, the conducting medium of the space occupied by the muon has a higher and , which means the speed of light travels more slowly in that space. This in turn causes a decrease in the transmission speed of communication within the particle. And, this reduction in transmission speed in turn produces a reduced rate at which the communication about the annihilation and reformation/relocation of a new Central DP occurs. Thus, it will take longer for the occasional formation of a Central DP outside of the bonds of the muon’s structure, which would then precipitate the escape of a quantum of energy-order from the energy barrier of the muon.

Thus, the muon can maintain itself inside its allowable quantum boundaries and endure intact without decaying for a greater length of time, according to the amount of time elapsed by an observer in a less electromagnetically dense space. The same probability of decay was acting for the muon in its high environment, it just took more external clock ticks for that number of ticks to pass in the higher environment and result in a decay, thus, the apparent validation of Relativistic time dilation.

The theme running through the conventional view of the Theory of Relativity is that it is simply the relative velocity of the observer that causes the higher velocity to alter the rate of passage of time, the apparent length, and amount of energy held by the field. But, the Theory of Absolutes provides a more nuanced and mechanistic explanation for the predicted phenomena.

In the Theory of Absolutes, the Relativistic effects are produced as a result of a change in the electromagnetic properties of the space. The result of such alteration in the properties of the conducting space is that clocks slow due to the reduced process rates of the space that mediates the underlying cyclical processes by which the markers of time are judged. The actual rate of the universal clock tick has not changed, but the processes visible to human observation have changed. As a result, all processes subject to mediation by space will slow down in an electromagnetically stressed space. This is the reason for the slowing of biological rates as illustrated by the hypothetical twin paradox (Two brothers, one stays on earth, one goes to Alpha Centauri and back at the speed of light, and the brother on earth ages more than the rocket man.) The reduction in the rate of decay of the muon has been examined above; and we see how its high velocity alters its local environment, thus influencing its rate of decay. And, as an added proof that it is the its and gravitational fields bending photons as seen in the gravitational lensing of galaxies as seen in the Einstein ring where a circle of light is seen around a closer galaxy, formed by photons coming from a more distant galaxy. And finally, the reduction in the speed of light produced by a photon crossing a photon, which is an additional illustrates that the polarization of the space by matter, photonic energy, or gravity, changes the speed of light conduction in that space.

In summary, it is not relative speed that produces the effects of time dilation, mass accumulation etc., rather it is the change in the and due to the Absolute speed of the particle. The rules of physics will still function in each of these inertial frames, but they will function much slower in comparison to a frame traveling at a lower absolute velocity.